Abstract

Tomato (Solanum lycopersicum) is an important economic crop worldwide. However, tomato production is jeopardized by the devastating tomato yellow leaf curl disease caused by whitefly-transmitted begomoviruses (WTBs). In this study, we evaluated the efficacy of our previously developed plant antiviral immunity inducer, fungal F8-culture filtrate, on tomato to combat tomato yellow leaf curl Thailand virus (TYLCTHV), the predominant WTB in Taiwan. Our results indicated that F8-culture filtrate treatment induced strong resistance, did not reduce the growth of tomato, and induced prominent resistance against TYLCTHV both in the greenhouse and in the field. Among TYLCTHV-inoculated Yu-Nu tomato grown in the greenhouse, a greater percentage of plants treated with F8-culture filtrate (43–100%) were healthy-looking compared to the H2O control (0–14%). We found that TYLCTHV cannot move systemically only on the F8-culture filtrate pretreated healthy-looking plants. Tracking the expression of phytohormone-mediated immune maker genes revealed that F8-culture filtrate mainly induced salicylic acid-mediated plant immunity. Furthermore, callose depositions and the expression of the pathogen-induced callose synthase gene, POWDERY MILDEW RESISTANT 4 were only strongly induced by TYLCTHV on tomato pretreated with F8-culture filtrate. This study provides an effective way to induce tomato resistance against TYLCTHV.

Highlights

  • Tomato (Solanum lycopersicum) is an economically important vegetable crop, which ranks third in this class in terms of volume of production and first in terms of processing volume [1]

  • Our results indicated that F8-culture filtrate treatment in tomatoes induced strong resistance to tomato yellow leaf curl Thailand virus (TYLCTHV) both in the greenhouse and in the field

  • Yu-Nu tomato is a favorable tomato with commercial value; it is known for its susceptibility to several pathogens including whitefly-transmitted begomoviruses (WTBs)

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Summary

Introduction

Tomato (Solanum lycopersicum) is an economically important vegetable crop, which ranks third in this class in terms of volume of production and first in terms of processing volume [1]. Tomato yellow leaf curl disease (TYLCD) caused by whitefly-transmitted begomoviruses (WTBs) has a devastating effect on tomato production worldwide [2,3,4,5]. One of the main approaches to managing TYLCD relies on controlling the whitefly vector using insecticide [6,7]. It has become increasingly difficult to control the whitefly vector population in this way because of the rapid evolution of whitefly’s resistance to insecticides [2,7,8]. Screening of TYLCD-resistant tomato cultivars revealed that most commercially cultivated tomato cultivars are susceptible to the disease [9]. As a large number of tomato cultivars are planted for commercial purposes, transferring the resistance loci to these various commercial tomato cultivars remains a challenge. Transgenic approaches that mainly use RNAi strategies have been successfully applied to plants to manage TYLCD infection with promising results [13,14,15,16,17,18,19,20,21,22,23,24]

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